CN113257555B - Channel dip-coating device and method for dry-type high-voltage reactor - Google Patents

Abstract

The utility model relates to a dry-type high-voltage reactor's lane dip-coating device and dip-coating method belongs to dry-type high-voltage reactor technical field, it includes the butt flange that is located the reactor below, the last surface mounting of butt flange has a plurality of to be used for inserting the pipe in the lane bottom, and the outer wall of pipe and the inner wall butt of lane, the pipe runs through the butt flange, the butt flange is provided with the scribble workbin that is used for retrieving coating under the pipe, set up the shutoff mechanism that is used for sealing the pipe bottom between butt flange and scribble workbin. The application has the effect of improving the smearing of the coating on the inner wall of the channel.

Description

Dry-type high-voltage reactor channel dip-coating device and dip-coating method

Technical Field

The application relates to the field of dry-type high-voltage reactors, in particular to a channel dip-coating device and a channel dip-coating method of a dry-type high-voltage reactor.

Background

After the dry-type high-voltage reactor runs for many years, the phenomena of epoxy pulverization, cracking and partial insulation stripping appear on the surface of the dry-type high-voltage reactor due to the combined action of outdoor ultraviolet rays, sand wind, rain, high and low temperatures in four seasons and various insects and birds, so that the dry-type high-voltage reactor is heated, deformed and burnt. The severe image electric power system operates safely. Therefore, the maintenance work of regularly spraying or brushing special paint on the dry-type high-voltage reactor by workers is required.

The existing reactor body comprises a main body and a plurality of clamping channels which are arranged outside the main body and used for ventilating and cooling the main body, wherein the top and the bottom of each clamping channel are communicated. Thereby completing the maintenance work of the clipping channel.

In view of the above related technologies, the inventor believes that the channel of the reactor is very narrow and high in height, and thus it is difficult to uniformly and comprehensively apply the paint on the inner wall of the channel by means of spraying.

Disclosure of Invention

In order to improve the coating effect of the coating on the inner wall of the channel, the application provides a channel dip-coating device and a dip-coating method of a dry-type high-voltage reactor.

The application provides a dry-type high-voltage reactor's lane dip-coating device and dip-coating method adopts following technical scheme:

the utility model provides a dry-type high-voltage reactor's lane dip-coating device, includes the butt flange that is located the reactor below, and the last surface mounting of butt flange has a plurality of to be used for inserting the pipe in the lane bottom, and the outer wall of pipe and the inner wall butt of lane, and the pipe runs through the butt flange, and the butt flange is provided with under the pipe to be used for retrieving the scribble workbin of coating, sets up the shutoff mechanism that is used for sealing the pipe bottom between butt flange and scribble the workbin.

By adopting the technical scheme, the guide pipe is inserted into the bottom of the clamping channel, the bottom of the guide pipe is plugged by the plugging mechanism, then the corresponding clamping channel where the guide pipe is located is filled with the coating, the guide pipe is soaked for a period of time, after the soaking is finished, the bottom of the guide pipe is opened by the plugging mechanism, the guide pipe is communicated with the coating box, and then the coating flows into the coating box along the guide pipe to be recovered. Through the structure, the inner wall of the clamping channel is coated in a dip-coating mode, so that the coating can be uniformly and comprehensively coated on the whole inner wall of the clamping channel, and the coating effect on the inner wall of the clamping channel is improved.

Optionally, the plugging mechanism comprises a rotary table and a first motor, the rotary table is located below the abutting joint disc and is connected with the abutting joint disc in a rotating mode, the first motor is located below the rotary table and drives the rotary table to rotate, the rotary table is provided with a plurality of through holes, and the through holes can correspond to the guide pipes one to one.

By adopting the technical scheme, when the coating is soaked in the channel, the part of the turntable, which is not provided with the through hole, is positioned at the bottom of the conduit, so that the conduit cannot be communicated with the coating box, and the coating is prevented from flowing out of the channel; after the soaking work is finished, the first motor drives the rotary table to rotate, so that the through hole is communicated with the guide pipe, and the coating sequentially passes through the guide pipe and the through hole and then flows into the coating box, so that the coating is recovered.

Optionally, the abutting joint disk is provided with a plurality of through holes penetrating through the abutting joint disk, the through hole part and the conduit part are symmetrically distributed along a straight line where one diameter of the abutting joint disk is located, a water tank is arranged below the rotary disk, and the water tank is located right below the through holes.

Through adopting above-mentioned technical scheme, when the staff is carrying out the clearance work of double-layered way, make through-hole and perforation intercommunication, it is the perforation to be located partial double-layered way under simultaneously, then to the water injection in the double-layered way that the perforation corresponds, the moisture after the clearance passes in proper order and flows into in the water tank and retrieves after through-hole.

Optionally, a mounting disc and a support frame are arranged below the abutting disc, the mounting disc is rotatably connected with the top of the support frame, a second motor for driving the mounting disc to rotate is arranged below the mounting disc, an air cylinder is arranged between the mounting disc and the water tank, and an air cylinder is also arranged between the mounting disc and the coating box.

By adopting the technical scheme, the worker can conveniently insert or pull out the conduit into or from the bottom of the clamping channel by adjusting the cylinder; the installation disc is driven to rotate by the second motor, the installation disc drives the water tank, the coating box rotating disc and the abutting disc to rotate together through the air cylinder, and then the guide pipe can be inserted into different clamping channels and communicated with the bottoms of the through holes and the different clamping channels, so that convenience is brought to cleaning work and dip-coating work of all the clamping channels by workers.

Optionally, a vibrating spear is arranged above the conduit portion, a first mounting plate for mounting the vibrating spear is arranged at the top of the vibrating spear, a first connecting frame is arranged between the first mounting plate and the support frame, the bottom of the first connecting frame is detachably connected with the support frame, and the top of the first connecting frame is detachably connected with the first mounting plate.

Through adopting above-mentioned technical scheme, when soaking the work to the double-layered, make the vibrting spear insert to the double-layered of soaking having coating in, then reuse first link will be first mounting panel and support frame between the installation fixed, vibrate coating through the vibrting spear, eliminate the bubble in the coating, improve the dip-coating effect of coating to the double-layered inner wall.

Optionally, a brush is arranged above the through hole, a second mounting plate used for mounting the brush is arranged at the top of the brush, the bottom of the second mounting plate is detachably connected with the support frame, a spring is fixedly arranged at the top of the second supporting rod, the lower surface of the second mounting plate is abutted to the spring, and a vibrator is arranged at the top of the second mounting plate.

Through adopting above-mentioned technical scheme, when clearing up the work to the double-layered way, insert the brush to the double-layered way of clearing up in, vibrate the second mounting panel through the bobbing machine to make the continuous compression of spring extend, accomplish the clearance work to the double-layered way, and need not the staff and hold the brush and clear up, provide convenience for the staff to the clearance work of double-layered way.

Optionally, a guide rod is arranged between the support frame and the second mounting plate, a guide hole penetrating through the second mounting plate is formed in the second mounting plate, the guide rod penetrates through the second mounting plate from the guide hole, and the bottom of the guide rod is detachably connected with the support frame.

Through adopting above-mentioned technical scheme, the bobbing machine is when vibrating the second mounting panel, and the length direction reciprocating motion of second mounting panel along the guide bar has played the guide effect for the moving direction of second mounting panel, has improved the stability when second mounting panel vibrates.

Optionally, the inside of second mounting panel and brush is cavity mechanism, and the inside of second mounting panel is linked together with the inside of brush, and the lateral wall of brush is provided with a plurality of water jets along self length direction, and the top of second mounting panel is provided with the water injection pipe.

Through adopting above-mentioned technical scheme, when clearing up the double-layered way, with external water source and water injection pipe switch-on, the water source flows into to the second mounting panel earlier in, flows into the brush from the second mounting panel again in, spouts from the water spout at last, need not the artifical water spray of staff, further provides convenience for the staff to the clearance work of double-layered way.

Optionally, a connecting rod is fixedly connected between the water tank and the abutting disc, and a connecting rod is also fixedly connected between the coating tank and the abutting disc.

Through adopting above-mentioned technical scheme, improved the water tank, scribbled the stability between workbin and the butt dish three, make the water tank with scribble the workbin and can drive the butt dish and rotate together when rotating.

A channel dip-coating method of a dry-type high-voltage reactor comprises the following steps:

s1, cleaning the interior of the clamping channel by using a brush, and aligning the through hole with the through hole;

s2, rotating the abutting disc to enable the guide pipe to be inserted into the cleaned clamping channel, abutting the part, not provided with the through hole, of the rotating disc with the bottom of the guide pipe, and pouring paint into the cleaned clamping channel;

and S3, after soaking for a period of time, rotating the turntable to enable the through hole to be aligned and communicated with the bottom of the conduit.

By adopting the technical scheme, when the brush cleans the clamping channel, water sprayed into the clamping channel can sequentially pass through the through hole and flow into the water tank for recycling, so that convenience is provided for workers to clean the clamping channel, and waste of water resources is reduced; then, filling the cleaned interior of the channel with paint, and coating the inner wall of the channel with the paint in a dip-coating manner so as to improve the coating effect on the inner wall of the channel; after the soaking is finished, the through hole is aligned with the guide pipe, the coating in the clamping channel flows into the coating box, and redundant coating is recovered to reduce the waste of the coating.

In summary, the present application includes at least one of the following beneficial technical effects:

1. coating the clamping channel in a dip-coating mode to improve the coating effect on the clamping channel;

2. the turntable is rotated to communicate the through hole with the conduit, so that the coating in the channel can flow into the coating box, and the waste of the coating is reduced;

3. when clearing up the double-layered way, make perforation and through-hole align, can retrieve the water in the double-layered way, reduced the waste of water resource.

Drawings

FIG. 1 is a schematic structural view of a reactor body in an embodiment of the present application;

FIG. 2 is a schematic structural diagram showing a positional relationship between a dip coating device and a reactor body in an embodiment of the present application;

FIG. 3 is a sectional view showing a positional relationship between a dip coating device and a reactor body in an embodiment of the present application;

FIG. 4 is an exploded view of a portion of a dip coating apparatus embodying features of the present application in an example;

FIG. 5 is a schematic diagram of a dip coating apparatus in the practice of the present application;

fig. 6 is a partial schematic view showing a structure between the brush and the second mounting plate.

Description of reference numerals: 1. a butting disk; 11. a conduit; 12. perforating; 2. a plugging mechanism; 21. a turntable; 211. a through hole; 22. a first motor; 3. a connecting rod; 4. a water tank; 5. a paint tank; 6. mounting a disc; 61. a cylinder; 62. a second motor; 7. a support frame; 8. a vibrating rod; 81. a first mounting plate; 82. a first connecting frame; 9. a brush; 91. a water spray nozzle; 92. a second mounting plate; 921. a water injection pipe; 922. a vibrator; 93. a second link frame; 931. a spring; 94. a guide bar; 95. a guide hole 10 and a reactor body; 101. a main body; 102. and (5) lane clipping.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a channel dip-coating device and a channel dip-coating method of a dry-type high-voltage reactor.

Referring to fig. 1, a reactor body 10 includes a main body 101 and several galleries 102 disposed around the outside of the main body 101.

Referring to fig. 2 and 3, the lane dip-coating device of the dry-type high-voltage reactor comprises a butting disc 1, a plugging mechanism 2 and a mounting disc 6 which are sequentially arranged below a reactor body 10 from top to bottom.

Referring to fig. 3 and 4, the upper surface of the abutting joint disc 1 is fixedly provided with a plurality of guide pipes 11 capable of being inserted into the bottom of the channel 102, the outer wall of each guide pipe 11 abuts against the inner wall of the channel 102, each guide pipe 11 penetrates through the abutting joint disc 1, the abutting joint disc 1 is provided with a plurality of through holes 12 which penetrate through the abutting joint disc 1 and can be communicated with the channel 102, the cross section of each through hole 12 is the same as the shape and size of an opening at the bottom of the channel 102, and the through hole 12 and the guide pipe 11 are symmetrical along a straight line where one diameter of the abutting joint disc 1 is located. Between the abutment plate 1 and the mounting plate 6, a water tank 4 and a paint tank 5 are arranged, the water tank 4 being located directly below the perforations 12 and the paint tank 5 being located directly below the conduit 11. When workers clean the channel 102, the plugging mechanism 2 enables the through hole 12 to be communicated with the water tank 4, and water cleaned by the channel 102 by the workers can flow into the water tank 4 to be recovered; then, the operator rotates the abutting disc 1 to insert the conduit 11 to the bottom of the cleaned channel 102, the bottom of the conduit 11 is blocked by the blocking mechanism 2, the coating is poured into the channel 102, the coating is coated on the inner wall of the channel 102 in a dip-coating mode, after the coating is coated in the channel 102 for a period of time, the blocking mechanism 2 opens the bottom of the conduit 11, and the coating flows into the coating box 5 through the conduit 11 to be recovered. Through the structure, the inner wall of the clamping channel 102 is coated with the coating in a dip-coating mode, and the coating effect of the coating on the inner wall of the clamping channel 102 is improved.

The plugging mechanism 2 comprises a rotary disc 21 and a first motor 22 used for driving the rotary disc 21 to rotate, the rotary disc 21 is rotatably connected with the butting disc 1, the first motor 22 is located below the rotary disc 21, an output shaft of the first motor 22 is fixedly connected with the central position of the rotary disc 21, a plurality of through holes 211 are formed in the rotary disc 21, and the through holes 211 can correspond to the through holes 12 or the guide pipes 11 one to one. When a worker cleans the clamping channel 102, the motor drives the rotating disc 21 to rotate, so that the through hole 211 is communicated with the through hole 12, and water for cleaning the clamping channel 102 sequentially passes through the through hole 12 and the through hole 211 and then flows into the water tank 4; when the paint in the channel 102 needs to be recovered, the first motor 22 drives the rotating disc 21 to rotate, so that the through hole 211 is aligned with the conduit 11, and the paint in the channel 102 flows through the conduit 11 and the through hole 211 in sequence and flows into the paint tank 5 for recovery.

An air cylinder 61 is fixedly arranged between the mounting disc 6 and the water tank 4, the air cylinder 61 is also fixedly arranged between the mounting disc 6 and the coating box 5, and a support frame 7 is arranged below the mounting disc 6; the mounting disc 6 is connected with the upper surface rotation of support frame 7, and the below of support frame 7 sets up and is used for driving mounting disc 6 pivoted second motor 62, and the output shaft of second motor 62 passes the top of support frame 7 and the central point of mounting disc 6 puts fixed connection, and the organism of second motor 62 is connected with the lower fixed surface of support frame 7. A connecting rod 3 is attached between the side wall of the water tank 4 and the side wall of the abutment disc 1, a connecting rod 3 is also attached between the side wall of the paint tank 5 and the side wall of the abutment disc 1, and the connecting rod 3 does not penetrate through the turntable 21. When a worker cleans part of the clamping channel 102, the air cylinder 61 can be lifted to enable the guide pipe 11 to be inserted into the clamping channel 102 which is not cleaned, the through hole 12 is aligned with the bottom of the clamping channel 102 which needs to be cleaned and cleaning work is carried out, after cleaning is finished, the air cylinder 61 is lowered to enable the guide pipe 11 to be pulled out from the bottom of the clamping channel 102, then the second motor 62 rotates the mounting disc 6 again to enable the guide pipe 11 to be located at the bottom of the clamping channel 102 which is cleaned, the through hole 12 is located at the bottom of the clamping channel 102 which is not cleaned, and the air cylinder 61 is lifted again to enable the guide pipe 11 to be inserted into the clamping channel 102 which is cleaned. The worker may perform dip coating work on the cleaned tunnel 102 and perform cleaning work on the remaining tunnels 102.

Referring to fig. 3 and 5, a vibrating rod 8 inserted into the clamping channel 102 is arranged above the guide pipe 11, the vibrating rods 8 correspond to the guide pipe 11 one to one, a first mounting plate 81 for mounting the vibrating rod 8 is arranged at the top of the vibrating rod 8, first connecting frames 82 are arranged between two sides of the first mounting plate 81 and two sides of the support frame 7, the top of each first connecting frame 82 is fixedly connected with the corresponding first mounting plate 81 through a bolt, and the bottom of each first connecting frame 82 is fixedly connected with the support frame 7 through a bolt. When dip-coating the channel 102, the vibrating rod 8 is inserted into the channel 102 filled with the coating, then the two ends of the first connecting frame 82 are respectively fixed with the first mounting plate 81 and the support frame 7 by bolts, and during dip-coating, the vibrating rod 8 vibrates the coating to eliminate bubbles in the coating and further improve the coating effect of the coating on the inner wall of the channel 102.

Referring to fig. 3 and 6, the top of perforation 12 is provided with brush 9, brush 9 and perforation 12 one-to-one, and the top of brush 9 is provided with the second mounting panel 92 that is used for installing brush 9, and the inside of brush 9 and second mounting panel 92 is hollow structure, and the two communicates each other, and evenly distributed is provided with a plurality of water spout 91 on the lateral wall of brush 9, and the top intercommunication of second mounting panel 92 has the water injection pipe 921 that is used for carrying out the intercommunication with external water source. Be provided with second connecting rod 3 between second mounting panel 92 and the support frame 7, through bolt fixed connection between the bottom of second link 93 and the support frame 7, spring 931 has set firmly at the top of second link 93, spring 931 and second mounting panel 92's lower surface butt, be provided with guide bar 94 between second mounting panel 92 and the support frame 7, bolt and support frame 7 fixed connection are passed through to guide bar 94's bottom, second mounting panel 92 sets up the guiding hole 95 that runs through oneself, guide bar 94 passes second mounting panel 92 in following guiding hole 95 along vertical direction. The top of the second mounting plate 92 is fixedly provided with a vibrating machine 922 for driving the second mounting plate 92 to vibrate. When clearing up the double-layered 102 inner wall, will connect external water source and water injection pipe 921 switch-on to water injection in the second mounting panel 92, the water source flows into in brush 9 and through the blowout of water spout 91, and bobbing machine 922 drives second mounting panel 92 and vibrates from top to bottom, and makes the constantly compression of spring 931 and extend, and second mounting panel 92 realizes the clearance to the double-layered 102 inner wall along the length direction reciprocating motion of guide bar 94.

The implementation principle of the channel-clamping dip-coating device of the dry-type high-voltage reactor in the embodiment of the application is as follows: connect external water source and water injection pipe 921 earlier, cylinder 61 rises and is driving butt dish 1 to rise and the bottom butt of reactor body 10, then clear up the inside of double-layered way 102 through brush 9, unnecessary moisture passes perforation 12 and through-hole 211 and flows into and retrieve in water tank 4, then the staff demolishs the structure between brush 9 and the support frame 7 again, cylinder 61 is driving butt dish 1 and descends, rethread second motor 62 is driving butt dish 1 and rotates, cylinder 61 is driving butt dish 1 to rise again, make pipe 11 insert to the double-layered way 102 bottom that finishes of clearing up, perforation 12 aligns with the double-layered way 102 bottom that does not clear up, through-hole 211 aligns with perforation 12 this moment, then the staff installs vibrating spear 8 in the top of pipe 11 again, brush 9 installs the top at perforation 12, the staff injects the coating into the double-layered way 102 after finishing the clearance again, and clear up the double-layered way 102 of surplus part. After the paint is soaked in the channel 102 for a period of time, the first motor 22 drives the turntable 21 to rotate, so that the through hole 211 is aligned with the conduit 11 and the residual paint flows into the paint tank 5 for recycling. By adopting the structure, the inner wall of the clamping channel 102 can be coated in a dip-coating mode, so that the coating effect on the inner wall of the clamping channel 102 is improved.

A channel dip-coating method of a dry-type high-voltage reactor comprises the following steps:

s1, inserting a brush 9 into a clamping channel 102 to be cleaned, cleaning the clamping channel 102, aligning a through hole 12 with a through hole 211, and recovering the cleaned water;

s2, rotating the abutting disc 1 to enable the guide pipe 11 to be inserted into the cleaned clamping channel 102, enabling the part, not provided with the through hole 211, of the rotary disc 21 to abut against the bottom of the guide pipe 11, and pouring paint into the cleaned clamping channel 102 to enable the inner wall of the clamping channel 102 to be soaked;

and S3, after soaking for a period of time, rotating the turntable 21 to enable the through hole 211 to be aligned and communicated with the bottom of the guide pipe 11, and recovering the coating.

The implementation principle of the channel dip-coating method of the dry-type high-voltage reactor in the embodiment of the application is as follows: when the brush 9 is used for cleaning the clamping channel, the through hole 211 and the through hole 12 can be aligned, and the cleaned water can be recovered; after cleaning, the conduit 11 is inserted to the bottom of the channel, the turntable 21 seals the bottom of the conduit 11, and the inner wall of the channel is dip-coated in a soaking mode, so that the coating is uniformly coated on the inner wall of the channel; after the coating is soaked for a period of time, the turntable 21 rotates to enable the through hole 211 to be communicated with the guide pipe 11, so that the coating is recovered, and the coating waste is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a dry-type high-voltage reactor's lane dip-coating device which characterized in that: the reactor comprises a butting disc (1) positioned below a reactor body (10), wherein a plurality of guide pipes (11) inserted into the bottom of a clamping channel (102) are mounted on the upper surface of the butting disc (1), the outer walls of the guide pipes (11) are butted with the inner wall of the clamping channel (102), the guide pipes (11) penetrate through the butting disc (1), a coating box (5) for recovering coating is arranged under the guide pipes (11) of the butting disc (1), and a blocking mechanism (2) for closing the bottom of the guide pipes (11) is arranged between the butting disc (1) and the coating box (5); the plugging mechanism (2) comprises a rotary disc (21) and a first motor (22), the rotary disc (21) is located below the abutting disc (1) and is rotationally connected with the abutting disc (1), the first motor (22) is located below the rotary disc (21) and drives the rotary disc (21) to rotate, a plurality of through holes (211) are formed in the rotary disc (21), and the through holes (211) can correspond to the guide pipes (11) one by one; the butt joint disc (1) is provided with a plurality of through holes (12) penetrating through the butt joint disc (1), the through holes (12) and the guide pipe (11) are symmetrically distributed along a straight line where one diameter of the butt joint disc (1) is located, a water tank (4) is arranged below the rotary disc (21), and the water tank (4) is located right below the through holes (12); a brush (9) is arranged above the through hole (12), and a second mounting plate (92) for mounting the brush (9) is arranged at the top of the brush (9).

2. The nip dip-coating apparatus of a dry-type high-voltage reactor according to claim 1, characterized in that: the coating device is characterized in that a mounting disc (6) and a support frame (7) are arranged below the abutting disc (1), the mounting disc (6) is rotatably connected with the top of the support frame (7), a second motor (62) for driving the mounting disc (6) to rotate is arranged below the mounting disc (6), an air cylinder (61) is arranged between the mounting disc (6) and the water tank (4), and an air cylinder (61) is also arranged between the mounting disc (6) and the coating box (5).

3. The nip dip-coating apparatus of a dry-type high-voltage reactor according to claim 2, characterized in that: the guide pipe (11) is characterized in that a vibrating rod (8) is arranged above the part, a first mounting plate (81) used for mounting the vibrating rod (8) is arranged at the top of the vibrating rod (8), a first connecting frame (82) is arranged between the first mounting plate (81) and the support frame (7), the bottom of the first connecting frame (82) is detachably connected with the support frame (7), and the top of the first connecting frame (82) is detachably connected with the first mounting plate (81).

4. The nip dip-coating apparatus of a dry-type high-voltage reactor according to claim 2, characterized in that: be detachable connection between the bottom of second mounting panel (92) and support frame (7), spring (931) have set firmly at the top of second bracing piece, the lower surface and spring (931) butt of second mounting panel (92), and the top of second mounting panel (92) is provided with bobbing machine (922).

5. The nip dip-coating apparatus of a dry-type high-voltage reactor according to claim 2, characterized in that: be provided with between support frame (7) and second mounting panel (92) guide bar (94), guide hole (95) that run through self are seted up in second mounting panel (92), and guide bar (94) run through second mounting panel (92) in guide hole (95), are detachable connection between the bottom of guide bar (94) and support frame (7).

6. The nip dip-coating apparatus of a dry-type high-voltage reactor according to claim 1, characterized in that: the inside of second mounting panel (92) and brush (9) is hollow mechanism, and the inside of second mounting panel (92) is linked together with the inside of brush (9), and the lateral wall of brush (9) is provided with a plurality of water spout (91) along self length direction, and the top of second mounting panel (92) is provided with water injection pipe (921).

7. The nip dip-coating apparatus of a dry-type high-voltage reactor according to claim 1, characterized in that: the connecting rod (3) is fixedly connected between the water tank (4) and the butt joint disk (1), and the connecting rod (3) is fixedly connected between the coating tank (5) and the butt joint disk (1).

8. The dip coating method of the nip dip coating apparatus for the dry-type high-voltage reactor according to any one of claims 1 to 7, characterized by comprising the steps of:

s1, cleaning the interior of a clamping channel (102) by using a brush (9), and aligning a through hole (12) with a through hole (211);

s2, rotating the abutting disc (1), inserting the guide pipe (11) into the cleaned clamping channel (102), abutting the part of the rotary disc (21) which is not provided with the through hole (211) against the bottom of the guide pipe (11), and pouring paint into the cleaned clamping channel (102);

s3, after soaking for a period of time, rotating the turntable (21) to enable the through hole (211) to be aligned and communicated with the bottom of the guide pipe (11).

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